Molecular Signatures of Proliferation and Quiescence in Hematopoietic Stem Cells

生物 干细胞 造血 细胞生物学 基因表达 基因表达谱 基因表达调控 细胞周期 基因 DNA微阵列 成体干细胞 细胞分化 遗传学
作者
Teresa A. Venezia,Akil Merchant,Carlos A. Ramos,Nathan L. Whitehouse,Andrew Young,Chad A. Shaw,Margaret A. Goodell
出处
期刊:PLOS Biology [Public Library of Science]
卷期号:2 (10): e301-e301 被引量:351
标识
DOI:10.1371/journal.pbio.0020301
摘要

Stem cells resident in adult tissues are principally quiescent, yet harbor enormous capacity for proliferation to achieve self renewal and to replenish their tissue constituents. Although a single hematopoietic stem cell (HSC) can generate sufficient primitive progeny to repopulate many recipients, little is known about the molecular mechanisms that maintain their potency or regulate their self renewal. Here we have examined the gene expression changes that occur over a time course when HSCs are induced to proliferate and return to quiescence in vivo. These data were compared to data representing differences between naturally proliferating fetal HSCs and their quiescent adult counterparts. Bioinformatic strategies were used to group time-ordered gene expression profiles generated from microarrays into signatures of quiescent and dividing stem cells. A novel method for calculating statistically significant enrichments in Gene Ontology groupings for our gene lists revealed elemental subgroups within the signatures that underlie HSC behavior, and allowed us to build a molecular model of the HSC activation cycle. Initially, quiescent HSCs evince a state of readiness. The proliferative signal induces a preparative state, which is followed by active proliferation divisible into early and late phases. Re-induction of quiescence involves changes in migratory molecule expression, prior to reestablishment of homeostasis. We also identified two genes that increase in both gene and protein expression during activation, and potentially represent new markers for proliferating stem cells. These data will be of use in attempts to recapitulate the HSC self renewal process for therapeutic expansion of stem cells, and our model may correlate with acquisition of self renewal characteristics by cancer stem cells.

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